EP0925212A1 - Hydraulic motor vehicle brake system with antiskid controller - Google Patents

Abstract

A hydraulic motor vehicle brake system with antiskid controller, in particular for regulating driving dynamics, has at least one pump and pressure modulating valves in the brake lines to regulate the wheel braking pressure. The suction side of the pump is hydraulically connected to a braking pressure generator directly or indirectly through the pressure modulating valves. In the hydraulic connection of the braking pressure generator (1) with the suction side of the pump (2), a shutter (3) is arranged which helps to reduce stress on the sealing ring of the pump piston.

Description

Hydraulic motor vehicle brake system with wheel slip control

The invention relates to a hydraulic motor vehicle brake system with wheel slip control, in particular for driving dynamics control, according to the preamble of patent claim 1.

From DE 40 32 797 AI a hydraulic motor vehicle brake system with wheel slip control has already become known, which has a pump and pressure modulation valves in the brake line for regulating the wheel brake pressure. The pressure of the brake pressure sensor acts directly on the pump piston, so that the full pressure of the brake pressure sensor acts on the sealing of the pump piston. In certain applications, in particular for the operation of the pump for the purpose of driving dynamics control, particularly high demands are placed on the above-described sealing of the pump piston in order to ensure a secure sealing of the crank chamber, which is usually under atmospheric pressure.

For motor vehicle brake systems which are provided with a driving dynamics control system, a pump type known from DE 32 36 536 A1 is preferably used, which is characterized by a central intake duct in the pump piston. When using such a pump type, very high demands are therefore made on the sealing of the pump piston from the eccentric space.

It is therefore the object of the invention to improve a hydraulic motor vehicle brake system of the type specified in such a way that a leakage flow through the pump piston in the direction of the eccentric chamber is prevented with the least possible structural and functional expenditure. This object is achieved by the features characterizing claim 1.

Further features and advantages of the invention emerge from the subclaims, which refer to structural as well as technical circuit features for panel design.

The essence of the invention is to be explained below using an exemplary embodiment.

The only Fig. 1 shows the basic hydraulic circuit structure of a hydraulic motor vehicle brake system with wheel slip control, which is suitable for driving dynamics control in a partial representation for a wheel brake circuit. Furthermore, the figure shows a partial sectional view of the construction of a pump 2, as mentioned at the beginning of the prior art according to DE 32 36 536 AI. The pump 2 is effective in the selected representation in the function of a precharging pump, which is followed by a return pump 2 'in order to feed the pressure medium volume coming from the wheel brake 6 via a damping device 7 back to the brake circuit and thus to the brake line 8, which normally the brake pressure sensor 1 connects to the wheel brake 6.

To regulate the wheel brake pressure, pressure modulation valves 9, 10, which are known per se, are used, which in the present exemplary embodiment are an electromagnetically actuable 2/2-way inlet valve which is open in the basic position and downstream as an electromagnetically actuable 2/2-way valve which is closed in the basic position -Exhaust valve are designed.

The pressure modulation valve 10, which acts as an outlet valve, is followed by a low-pressure accumulator 11, which is followed in the direction of the suction side of the pump 2 by a check valve 12 which is generally provided with a pre-pressure. The already known features of the brake system, which are herewith mentioned again, now follow the suction path of the pump 2 coming from the pressure modulation valve 10, followed by a further suction path, identified as a bypass line 4, which has a switching valve 3 ', which in its basic position connects the connection between the brake pressure sensor 1 and the suction port of the pump 2 interrupts. In the present embodiment, the switching valve 3 'is designed as an electromagnetically actuated 2/2-way valve.

To simplify the circuit structure, electromagnetic actuation in the diaphragm position can be dispensed with if desired or required if the diaphragm function is designed as a fixed diaphragm in the bypass line 4.

The end of the bypass line 4 facing away from the pump 2 is connected to the brake pressure sensor 1 via the brake line 8 independently of the isolating valve 13 arranged downstream of it.

According to the invention, the orifice 3 is dimensioned in its cross section in such a way that the throughput in the orifice 3 is reduced to a level which is smaller than the delivery capacity of the pump 2. This limitation of the volume flow to the pump 2 means that it remains in the direction of the eccentric space 14 effective seal 15 slightly loaded, so that this seal can be made relatively simple, and also the previously required manufacturing and wear tolerances have less influence on the functionality of the system.

The invention can not only be applied to brake systems with a pre-charge pump, but also applies to brake systems without pre-charge, in which a self-priming pump 2 is used. In such a system, which dispenses with the use of a precharging pump shown in FIG. 1, the known from FIG. 1 is therefore retained basic circuit design, the proposed switching orifice valve 3 'is replaced by a 3/2-way valve which can be actuated electromagnetically from the closed, first switching position to the second, unrestricted, open switching position for unimpeded suction from the brake pressure transmitter 1 and when the brake pressure transmitter 1 is actuated mechanically moves electromagnetically into the third switch position, which has the switchable diaphragm 3. 1, the flow from the brake pressure sensor 1 to the suction side of the pump 2 is reduced to a smaller orifice cross-section when the working pistons in the brake pressure sensor 1 are actuated in the third switching position.

The action on the seal 15 acting in the direction of the eccentric chamber 14 can thus be described as low, as long as the pump output is above the flow rate flowing back from the wheel brake 6 to the pump 2.

The invention is also suitable for brake systems in which additional hydraulic pressure is to be built up in one or more wheel brake circuits during an anti-lock control. This can be done, for example, by a hydraulic brake assist function or by an active pressure increase using a hydraulic booster. For this purpose, a corresponding pressure level is generally specified and sensed in brake pressure transmitter 1. When using the shift valve 3 'described above, hydraulic pressure can be built up as required in the desired wheel brake 6, a certain pressure ratio between the wheel brake pressure and the pedal-operated hydraulic pressure of the brake pressure sensor 1 being set during the pump operation by the corresponding electrical actuation of the valve 3' in the open position can. Even in such an operation, the orifice 3, which is matched to the hydraulic pump output, ensures the lowest possible Strain on the seal 15, since only a relatively small pressure difference between the hydraulic circuit and the eccentric chamber 14, which is under atmospheric pressure, occurs. If the brake system on the brake pressure sensor 1 is provided with a pressure sensor, the orifice 3 prevents excessively large pressure fluctuations, which results in a more reliable function of the pressure sensor.

Reference list

1 brake pressure sensor

2 pump

3 aperture

3 'switching valve

4 bypass line

5 intake duct

6 wheel brake

7 damping device

8 brake line

9.10 pressure modulation valves

11 low pressure accumulators

12 check valve

13 isolation valve

14 eccentric space

15 seal

Claims

claims

1. Hydraulic motor vehicle brake system with wheel slip control, in particular for driving dynamics control, with at least one pump and pressure modulation valves in the brake lines for regulating the wheel brake pressure, the suction side of the pump being hydraulically connected directly or indirectly via the pressure modulation valves to a brake pressure transmitter, characterized in that in the hydraulic Connection of the brake pressure sensor (1) with the suction side of the pump (2) is arranged an aperture (3).

2. Hydraulic motor vehicle brake system according to claim 1, characterized in that the diaphragm (3) is part of a preferably electromagnetically actuated control valve (3 ').

3. Hydraulic motor vehicle brake system according to claim 1 or 2, characterized in that the function of the diaphragm (3) is effective at least in the operation of the pump (2).

4. Hydraulic motor vehicle brake system according to at least one of the preceding claims 1 to 3, characterized in that the flow rate in the diaphragm (3) is smaller than the delivery rate of the pump (2).

5. Hydraulic motor vehicle brake system according to claim 2, characterized in that the switching valve (3 ') is designed as a preferably electrically operable 2/2-way valve which in a brake pressure transmitter (1) with the suction side of the pump (2) connecting bypass line (4th ) is used. Hydraulic motor vehicle brake system according to claim 2, characterized in that the switching diaphragm valve (3 ') is designed as a preferably electrically operated 3/2-way valve, which in a first switching position disconnects the hydraulic connection of the brake pressure transmitter (1) with the pump (2), in which produces an unobstructed passage in the second switching position and assumes the diaphragm position in the third switching position.

Hydraulic motor vehicle brake system according to claim 6, characterized in that the shift valve (3 ') takes the third switching position instead of the second when the brake pressure transmitter (1) is mechanically actuated to build up a hydraulic pressure.

Hydraulic motor vehicle brake system according to Claim 1, characterized in that the pump (2) is designed as a piston pump, the suction channel (5) of which preferably opens into the piston shaft between two piston seals and is guided in the direction of the pump chamber.